Field Oriented Control of Multiple Induction Machines

1. Field Oriented Control of Multiple Induction Machines Brian H. Green Power Affiliates Program May 12, 2006

2. Field Oriented Control • Uses dynamic Induction Machine equations • Controls flux and torque by commanding d and q-axis currents

3. Multiple Induction Machines • Parallel induction machines are used in industry with applications such as locomotives • Single-inverter configurations can be more compact and less expensive than standard multiple-inverter configurations

4. F v r1 r2 ωrm1 ωrm2 Mechanical Model

5. Variables to Control • Control of mechanical power is equivalent to control of tractive effort at a given speed • Control of maximum flux magnitude ensures that no machine is excessively magnetized

6. Inverter is is1 is2 is is is Motor 1 Motor 2 Electrical Model • Inverter output current is twice the average machine current

7. Developing Current Commands • Express machine quantities in terms of average and difference quantities • Solve for average current values

8. Average Rotor Flux Orientation • Align d-axis with average rotor flux • Implies

9. q-axis Current Command • Solve power output equation for average q-axis stator current • Equation reduces to standard q-axis current command when difference terms are zero.

10. d-axis Current Command • Solve rotor flux magnitude equation for ids (uses both rotor dynamic equations) • Equation reduces to standard d-axis current command when difference terms are zero

11. Simulation